SU886971A1 - Inertial cone crusher - Google Patents

Description

(54) INERTIAL CONE CRUSHER

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The invention relates to cone crushers of large, medium and fine crushing and can be used in the construction and mining and metallurgical industries.

Cone crushers equipped with an eccentric drive, by virtue of their kinematic features, have a crushing degree of no more than 5. Inertial cone crushers having an unbalanced drive and open kinematic connections have a 4-fold greater crushing degree. This is due to the fact that the cones in them can come closer to the contact of the armor, providing a backlash-free run-in with an empty crushing cavity. However, the uncertainty of the gyration motion of the cone B in the operating mode (fluctuation of its amplitude) requires the organization of a complex drive and causes other difficulties in achieving simplicity of the structures. of

A known inertial crusher includes a housing with an outer cone and a spherical support for the inner cone, on the shaft of which an electrovibration drive is placed in the form of a fixed rotor mounted on the shaft of the rotor mounted on the rolling bearings of the cone 1.

The crusher circuitry is simple, but its realization is unrealistic due to the presence of unacceptably large gaps between the electromagnetic rotor and the stator, and, consequently, very significant losses of electric energy spent on heat generation in the drive. Reducing the gaps in this design seems unrealistic, since their size is determined by the required nutation angle of the cone, which ensures the productivity and degree of the cone, which ensures productivity and the degree of fragmentation of the machine.

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Closest to the proposed invention is an inertial cone crusher, comprising a housing with an outer crushing cone and a spherical support for the inner movable

20 cones, on the shaft of which a hinged drive sleeve is installed with a support in the form of a Oldheim toothed coupling, and an electric actuator 2.

In this other | bilke camshaft bushing is connected with a rocker, at the ends of which there are unbalances nodes, driven by separate electric motors. The yoke, thanks to the bearing sleeve, performs a flat-parallel circular

30 movement without rotation. The design of such a machine is complex, which limits its widespread use in industry.

The purpose of the invention is to simplify the construction of the crusher and reduce its construction height.

This is achieved by the fact that in an inertial cone crusher, it contains a housing with an outer crushing cone and a spherical support for an internal movable cone, on the shaft of which a hinged drive sleeve is installed with a support in the form of a gear coupling of Oldheim, and an electric drive, the latter is diametrically shaped and pivotally connected to the coupling halves of the rods, the outer ends of which are provided with a short-circuited winding and placed inside a radially arranged and pivotally mounted on the body of the crusher tubular solenoids.

FIG. 1 shows the structural design of the crusher; in fig. 2 - section of the drive unit.

The crusher includes a foundation mounted through elastic elements 1, a housing 2 with an outer cone 3 and a spherical support 4 for the inner cone 5. The latter is equipped with a shaft 6 on which the hub 8 is mounted with a hinge 7, which is with the upper coupling half of the toothed coupling of Oldgame. The sleeve 8 is supported on the floating disk 9, which is the lower coupling half, which in turn rests on the bottom of the housing 2. The sleeve 8 has a diametral tooth 10 entering the groove of the floating disk 9, which on its bottom surface is equipped with a tooth 11, perpendicular the first | 3ubu 10 and entering the groove of the bottom of the case. Both coupling halves 8 and 9 are provided with mutually perpendicular and pivotally connected rods 12 and 13, the outer ends of which have a short-circuited winding. ,

The rods are installed inside the transaxial-X solenoids 14 and 15, pivotally and radially mounted on the housing 2. The trunnions of the rods have sliding contact with the solenoid through the sleeves 16 installed at their inputs.

Serially alternatingly alternatingly supplying electric power to the windings of the solenoids 14 and 15 causes the respective rods 12 and 13 to draw into them, shifting the coupling half 8 and 9 relative to each other. The latter cannot rotate relative to each other and the housing due to the presence of a gear interconnection.

The halves of the coupling half 8 cause the shaft 6 of the cone 5 to deflect through a hinge 7 at some angle on the sphere 4. The rods of the half coupling 9 through the tooth 10 deflect the sleeve 8, and through it the shaft of the cone in the direction perpendicular to the first one. Then the second shaft of the clutch 8 and, finally, the second rod of the clutch 9 comes into operation.

The sum of plane-parallel reciprocating movements of the coupling halves ensures the tiration movement of the cone on the spherical support. Since the stroke of the rods inside the solenoids is predefined in

according to a value larger than the maximum discharge gap between the cones, it is possible to run the inner cone on the outer one without a gap.

The ore loaded into the crusher is destroyed between the cones during the gyratory movement of the internal cone.

Thus, the proposed machine, not having a vibration drive, has

properties of the inertial crusher, including a high degree of crushing.

The compactness of the drive, simplicity of design, the absence of a separate electric motor, as well as proven reliability

Coupling operation allows to obtain a number of new useful properties: minimal energy losses with increased efficiency; small installation height due to the absence of cordless shafts and horizontal

placement of solenoids; ease of assembly and operation.

The height of the installation of such a mashina compared to the known one is less than one meter, which, by itself, reduces the height of the crushing buildings.

Claims (2)

1. USSR author's certificate No. 247768, cl. B 02 C 2/02, 1967. 2. USSR author's certificate number 324065, cl. B 02 C 2/02, 1971.